Effect of X-ray Radiation and High Temperature on Long Period Fiber Gratings in Crystal-Derived Silica Fiber

A long-period fiber grating (LPFG) in YAG:Yb crystal-derived silica fiber (YCDSF) was fabricated using a carbon dioxide laser. The influence of X-ray radiation on the resonant peak wavelength of YCDSF-LPFG was investigated. The radiation-induced resonance wavelength shift (RIRWS) of YCDSF-LPFG in the dose range of 40 similar to 1640 kGy was measured. To assess the effect of X-ray treatment on LPFG performance, the wavelength recovery of YCDSF-LPFG within 48 hours after irradiation and the thermal response of the grating before and after irradiation were explored. The temperature sensitivity of the LPFG was 0.0433 nm/degrees C, with a temperature range of 20 similar to 1000 degrees C. The experimental results indicated that YCDSF-LPFG is also suitable for high temperature measurement. This work demonstrated the potential application of YCDSF-LPFG sensor for radiation detection in high-temperature environments.